Term
| TF Muscles are the smallest group of organs in the body |
|
Definition
False
Muscles are the largest group of tissues in the body |
|
|
Term
| TF Cardiac muscle is 40% of body (by weight) |
|
Definition
False
Skeletal muscle is 40% of body by wt. |
|
|
Term
| TF Smooth muscle and Cardiac muscle make up 10% body by wt |
|
Definition
|
|
Term
| TF Skeletal muscles are involuntary muscles |
|
Definition
False
They are voluntary muscles that you consciously control |
|
|
Term
| What do skeletal muscles include? (give examples) |
|
Definition
| diaphragm, tongue, and muscles that move the eye |
|
|
Term
| _____________ are attached to the skeleton and allow for mvmt of the _________ |
|
Definition
1. skeletal muscles
2. bones |
|
|
Term
| What is the skeletal muscle made up of? |
|
Definition
|
|
Term
|
Definition
|
|
Term
| What are the 6 characteristics of muscle fibers? |
|
Definition
1. the muscle fiber is a Large cell
2. they are 10-100 micrometers in diameter
3. they are very long and extend the length of hte muscle
4. they are formed by the fusion of smaller cells during embryonic dev.
5. they are multinucleate
6. A single motor neuron innervates one muscle fiber |
|
|
Term
| TF Myofibrils are made up of muscle fibers |
|
Definition
False
Muscle fibers are made up of myofibrils
* muscle--muscle fiber--myofibril**
The muscle is made up of muscle fiber (muscle cell) and muscle fiber is made up of myofibrils |
|
|
Term
| TF muscle fibers are made up of myofibrils |
|
Definition
|
|
Term
| Myofibrils make up ___ percent of muscle fiber by volume |
|
Definition
|
|
Term
| What are myofibrils composed of? |
|
Definition
| microfilaments (ex: actin and myosin) |
|
|
Term
| Describe what myofibrils are |
|
Definition
| they are special contractile units found within the muscle fiber (ie muscle cell) |
|
|
Term
| TF Smooth muscle is striated |
|
Definition
False
Skeletal muscle is striated |
|
|
Term
| What causes the striations in skeletal muscle? |
|
Definition
| the alternating light and dark bands |
|
|
Term
| TF the alternating dark and light bands are made up of actin and myosin |
|
Definition
|
|
Term
1.Dark band =
2. Light band = |
|
Definition
1. myosin and overlap of myosin and actin
2. actin and Z line |
|
|
Term
|
Definition
a. it is the attachment site for actin
b. made up of filamentous proteins |
|
|
Term
| TF Sarcomere is the functional unit of a Z line |
|
Definition
False
Sacomere is the functional unit of the myofibril |
|
|
Term
| Where is the sarcomere located? |
|
Definition
|
|
Term
| What causes the striations of skeletal muscle? |
|
Definition
| Z line of one myofibril is lined up with Z line of another myofibril, thus causing striations in skeletal muscle |
|
|
Term
| What are the two molecular structures found within teh sarcomere? |
|
Definition
|
|
Term
TF thick filament = actin and
thin filament = myosin |
|
Definition
False
thick filament = myosin
thin filament = actin |
|
|
Term
Myosin has __ subunits
Each subunit composes of a_______________ head
|
|
Definition
|
|
Term
| what does the golf-club shaped head function as? |
|
Definition
| it funcs. as a crossbridge btwn myosin and actin |
|
|
Term
| TF the myosin head has 3 active sites |
|
Definition
False
It only has 2 active sites |
|
|
Term
| What are the two active sites of the myosin head? |
|
Definition
1. actin binding site: binds actin
2. myosin ATPase binding site: binds and cleaves ATP |
|
|
Term
| TF Thin filaments only contain actin |
|
Definition
False
Thin filament includes:
actin
tropomyosin
troponin |
|
|
Term
| TF Actin molecules are made up of globular proteins |
|
Definition
|
|
Term
| The actin helix is made up of: |
|
Definition
a. actin molecules (which are globular proteins)
b. binding site for myosin head |
|
|
Term
| TF Tropomyosin is a thick filament |
|
Definition
False
it is a thin filament |
|
|
Term
What are the is the func. of tropomyosin?
|
|
Definition
a. acts as a regulatory protein for muscle contraction
b. covers binding sites on actin |
|
|
Term
| TF tropomyosin is a thread-like protein that lies end to end |
|
Definition
|
|
Term
| TF Tropomyosin wraps around Actin and troponin |
|
Definition
False
It only wraps around the actin helix |
|
|
Term
| TF tropomyosin and troponin act as regulatory proteins for muscle contraction |
|
Definition
|
|
Term
| What is Troponin made up of? |
|
Definition
|
|
Term
| What are the 3 polypeptide subunits troponin is made up of? |
|
Definition
1. Troponin T
2. Troponin I
3. Troponin C |
|
|
Term
| TF Troponin T binds to actin |
|
Definition
False
Troponin T binds to tropomyosin |
|
|
Term
| TF troponin I binds to actin |
|
Definition
|
|
Term
| Troponin C binds to______ |
|
Definition
|
|
Term
| What is the func. of the troponin-tropomyosin complex |
|
Definition
| both proteins join toge. to make a complex which covers the actin binding sites |
|
|
Term
| TF during muscle contraction the level of Ca2++ is low |
|
Definition
False
During muscle relaxation Ca2++ is low
During muscle contraction Ca2++ is high |
|
|
Term
| TF When Troponin C binds to Ca2++ the myosin head tilts causing a power stroke |
|
Definition
False
When troponin C binds to calcium, this stimulates the T2 complex to undergo a conformational changes which uncovers the actin binding site |
|
|
Term
| TF When ATP is bound to the myosin head, it causes it to tilt forward |
|
Definition
False
When ATP is bound to myosin head, it causes the head to detach from the actin binding site |
|
|
Term
| Describe the steps in muscle contraction |
|
Definition
1. intracellular Ca2++ is high
2. Troponin C binds to Ca2++
3. This causes T2 complex to undergo a conformational change which will uncover the actin binding site
4. myosin head will now bind to the actin binding site
5.This will trigger a conformational change in myosin causing the head to tilt forward (ie power stroke)
6. Tilting of the head releases ADP
7. ATP will now bind to the myosin head
8. It will cause the myosin head to detach from the actin binding site
9. ATP will then be cleaved to ADP by ATpase of the myosin, this will cause the myosin head to return to its orginal (nontilted) form
10. When ATP is cleaved energy is put back into the system which can be used for the next power stroke |
|
|
Term
| TF muscle contraction can occur if Na+ is present |
|
Definition
False
it can occur if only Ca2++ is present |
|
|
Term
| TF muscle contraction is known as the "walk along" theory |
|
Definition
|
|
Term
| What is rigor mortis known as? |
|
Definition
|
|
Term
|
Definition
|
|
Term
| TF During rigor mortis, new ATP is used and new ATP is made |
|
Definition
False
During rigor mortis, existing ATP is used and NOOO new ATP is made |
|
|
Term
| What actually causes the muscle to become stiff? |
|
Definition
| Since no new ATP is made, the pool of ATP is exhausted, so noo new ATP will bind to the myosin head, myosin head will notttt detach from the actin binding site, the muscle will not relax, thus causing the muscle to become STIFF |
|
|
Term
| TF one Sensory neuron innervates many muscle fibers |
|
Definition
False
Each muscle fiber is innervated by a single motor neuron |
|
|
Term
| how does a motor neuron innervate a muscle fiber? |
|
Definition
| via the neuromuscular junc. |
|
|
Term
TF The neuromuscular junc. is made up of
1. axon terminal of motor neuron
2. motor-end plate of muscle |
|
Definition
|
|
Term
| What happens when an AP passes thru the motor neuron? |
|
Definition
| an AP thru the motor neuron causes Ca2++ influx into the axon terminal |
|
|
Term
| TF Ca2++ influx in the axon terminal causes Ach to be releaseed |
|
Definition
|
|
Term
| TF Ach is released thru the synaptic cleft and attaches to Ach receptors on teh motor end plate of the muscle |
|
Definition
False
When Ach is released and it travels thru the synaptic cleft it attaches to nicotinic receptors |
|
|
Term
| When Ach binds to nicotinic receptors, what is open and what do you have a increase/decrease in? |
|
Definition
| when Ach is bound to nicotinic receptors, ligand gated channels are open and large amounts of Na and small amounts of K+ pass thru the membrane |
|
|
Term
| When Na and K pass thru the membrane what do they generate? |
|
Definition
|
|
Term
TF The end-plate potential is an AP
|
|
Definition
False
it is a graded potential |
|
|
Term
| TF an AP doesnt occur in the end plate region |
|
Definition
|
|
Term
| TF, even though an AP doesnt occur in the end-plate region, it can initate an AP in adjacent areas of the membrane |
|
Definition
|
|
Term
| When an AP is initiated in adjacent areas of the membrane, what occurs? |
|
Definition
| When an AP is initiated in adjacent areas of the membrane, it can open up voltage-gated ion channels |
|
|
Term
| TF Ach release stimulates end plate pot. |
|
Definition
|
|
Term
| What terminates the stimulatory effect of Ach? |
|
Definition
Acholinenesterase
or cholinesterase |
|
|
Term
| TF the drug that blocks the release of Ach is known as botulinum toxin |
|
Definition
|
|
Term
| What produces the b.toxin |
|
Definition
| bacterium called C.botulinum |
|
|
Term
|
Definition
| refers to food poisoning caused by the toxin |
|
|
Term
TF b.toxin isnt a toxin substance |
|
Definition
False
it is a very toxic substance
less than 1 millionth of a gram can be lethal!! |
|
|
Term
| What are the two things b.toxin causes? |
|
Definition
1. paralyzes the muscle, including the diaphragm
2. causes respiratory failure |
|
|
Term
| TF b.toxin was the first biological toxin to be licensed for therapeutic use |
|
Definition
|
|
Term
| What are some of the uses of b.toxin? |
|
Definition
1. used in a dilute form to relax hyperexcitable muscles (it was injected into the muscle)
2. used cosmetically to get rid of deep wrinkles, aka botox injections
3. used for specific voice disorders
4. can be used to prevent excessive sweating
5. can be used to treat migraines
|
|
|
Term
| TF the drug that causes the release of Ach is known as cholinesterase |
|
Definition
False
the drug that increases the release of Ach is knwn as black widow spider venom |
|
|
Term
| TF black widow spider venom has the same effect as b. toxin |
|
Definition
False
they have opp. effects
a. bws venom causes an explosive release of Ach
b. b. toxin block the release of Ach |
|
|
Term
| When a lot of Ach is released due to bws venom, what occurs |
|
Definition
| it causes an excessive and prolonged stimulation of muscles, results in muscle spasms, which result in muscle fatigue |
|
|
Term
| TF Death from black widow spider is very prominent |
|
Definition
False
death from the venom is very rare!! |
|
|
Term
| TF when Ach nicotinic receptors are blocked, the neuromuscular junc. is also blocked |
|
Definition
|
|
Term
| What are the two drugs that attach to and block the nicotinic receptors? |
|
Definition
1. curare
2. alpha-bungaro toxin |
|
|
Term
| _________________ is found in plant extracts and blocks _____________ receptors |
|
Definition
|
|
Term
| What is alpha-bungarotoxin found in? |
|
Definition
| venom of poisonous snakes |
|
|
Term
TF most snake venom contains toxins that block nicotinic receptors, thus blocking release of Ach
|
|
Definition
|
|
Term
| In response to end plate potential, where is the AP produced? |
|
Definition
| AP is produced in adjacent motor end regions |
|
|
Term
| TF an AP is conducted along the surface of a muscle fiber |
|
Definition
|
|
Term
| TF b/c the muscle fiber has a large diameter, the AP conducted along the surface doesnt have an effect deep in the fiber |
|
Definition
|
|
Term
|
Definition
|
|
Term
| TF T-tubules carry AP deep into the muscle fiber |
|
Definition
|
|
Term
|
Definition
a. Transverse tubules
b. extention of the membrane and they run perpendicular from teh surface
c. tubules that carry AP deep within the muscle fiber |
|
|
Term
| TF the T-tubules carry an AP that can stimulate the sarcoplasmic reticulum |
|
Definition
|
|
Term
| TF the SR is a specialized type of ER |
|
Definition
|
|
Term
|
Definition
| it is an elaborate meshwork of tubules that surrounds the myofibrils |
|
|
Term
TF SR is a specialized organelle for the storage of intracellular K+
|
|
Definition
|
|
Term
| TF Ca2++ pumps continously pump Ca2++ out on the SR membrane |
|
Definition
|
|
Term
| __________ in the T-tubules causes release of Ca2++ |
|
Definition
|
|
Term
| When calcium is released what does it bind to? |
|
Definition
|
|
Term
| Upon binding to troponin C, Ca2++ initiates____________ |
|
Definition
|
|
Term
| TF when a muscle is at rest, there is no AP |
|
Definition
|
|
Term
| When the muscle is at rest, what happens to Ca2++ |
|
Definition
| it is actively pumped back into the SR |
|
|
Term
| TF during muscle relaxation, Ca2++ in ICF is low |
|
Definition
|
|
Term
| Due to low Ca2++ in the ICF, what happens? |
|
Definition
| myosin head cannot bind to actin, thus causing the muscle to relax |
|
|
Term
| Where is smooth muscle found? |
|
Definition
|
|
Term
| TF smooth muscles can be found in the digestive tracct |
|
Definition
True
Smooth muscle is found in the digestive tract, blood vessels, ureters and uterus |
|
|
Term
| TF smooth muscle forms the ciliary and iris muscles of the eye, and piloerector muscles |
|
Definition
|
|
Term
| TF smooth muscle has larger muscle fibers than skeletal muscle |
|
Definition
False
Smooth muscle has smaller muscle fibers than skeletal muscle
2-5um diameter
20-500um in length |
|
|
Term
| TF Smooth muscle doesnt contain myofibrils |
|
Definition
|
|
Term
| What are some characteristics of smooth muscle? |
|
Definition
- has actin and myosin
-doesnt have myofibrils
no striations
no t-tubules
-poorly developed SR
- actin is bound to proteins callled "dense bodies" instead of z line
|
|
|
Term
| TF Smooth muscle is better for fast, powerful contractions of the muscle |
|
Definition
False
b/c smooth muscle has very little characteristics, it is best used for slow, prolonged muscle contraction
Skeletal muscle is used for the fast and powerful muscle contraction |
|
|
Term
| TF in smooth muscles Ca2++ enters from the SR |
|
Definition
False
Ca 2++ in smooth muscle enters from ECF
Ca 2++ in skeletal muscle enters from the SR |
|
|
Term
| TF an AP running along the smooth muscle cell membrance causes an increase in Ca2++ |
|
Definition
|
|
Term
| Once Ca2++ is released into the ICF, what does it bind to? |
|
Definition
| It binds to calcium receptors call calmodulin |
|
|
Term
| Once Ca2++ binds to calmodulin, what occurs next? |
|
Definition
They form a complex which activates "myosin kinase"
myosin kinase activates myosin head |
|
|
Term
| TF the myosin head will bind to actin causing a power stroke/muscle contraction |
|
Definition
|
|
Term
| Describe the steps of SMOOTH muscle contraction |
|
Definition
1. An AP runs down the smooth muscle membrane increasing level of Ca2++
2. Ca2++ enters the ICF from ECF
3. Ca2++ binds to calmodulin
4. Ca2++ and calmodulin form a complex which activates "myosin kinase"
5. myosin kinase activates myosin
6. myosin binds to actin, thus causing a power stroke |
|
|
Term
TF Smooth muscle can occur with the presence of Na+
|
|
Definition
False
it occurs with the presence of Ca2++ |
|
|
Term
| TF smooth muscle uses less energy than skeletal muscle during contraction |
|
Definition
|
|
Term
| TF smooth muscle contraction is known as slow and economical |
|
Definition
|
|
Term
| Which muscle forms the electrical synctium |
|
Definition
|
|
Term
| What is electrical synctium?? |
|
Definition
1. it is when cell membranes of adjacent cells are joined by gap juncs. which allow for flow of ions btwn cells
2. it is where depolarization in one cell causes depolarization in an adjacent cell |
|
|
Term
| TF smooth muscle in the digestive tract is autorhythmic |
|
Definition
|
|
Term
|
Definition
|
|
Term
| TF Cardiac muscles have intercalated discs, used to connect indv. cells |
|
Definition
|
|
Term
| What are intercalated discs? |
|
Definition
cell membranes that connect two indv. cells toge.
they contain:
1. gap juncs.
2. desmosomes |
|
|
Term
| TF Gap junctions mechanically attach two cells toge. |
|
Definition
False
Desmosomes mechanically connect two cells toge.
Gap junc. connect to cells toge. for ion flow |
|
|
Term
| TF Smooth muscle AP have a longer duration (250msec) than Cardiac muscle |
|
Definition
False
Cardiac muscles have LONGER duration AP |
|
|
Term
| TF Cardiac muscle AP have a Plateau phase in which, theres a large influx of Na+ |
|
Definition
False
Cardiac muscle DO have a Plateau phase, but in the plateau phase you have an increased PERMEABILITY of Ca2++ due to the slow opening and closing of Ca2++ channels |
|
|
Term
| What causes the depolarization phase in cardiac muscles? |
|
Definition
| rapid opening of Na+ channels and rapid influx of Na+ |
|
|
Term
| TF during the plateau phase there is high permeability of Ca2++ and K+ and a low permeability of Na+ |
|
Definition
False
high permeability = Ca2++
low permeability = K+ and Na+ |
|
|
Term
| TF the purpose of having a steady flow of Ca2++ into the ECF is to maintain a (-) potential of the ECF |
|
Definition
False!!
Steady flow of Ca2++ occurs into ICF
maintains a (+) potential in ICF |
|
|
Term
| TF repolarization phase is knwn as the falling phase |
|
Definition
|
|
Term
| TF during repolarization K+ channels open and Ca2++ channels close |
|
Definition
|
|
Term
| TF we have a prolonged AP so that it allows for a prolonged muscle contraction and prolonged absolute refractory period |
|
Definition
False
prolonged AP =
1. prolonged muscle contraction
2. prolonged REFRACTORY period |
|
|
Term
| A prolonged muscle contraction and refractory period allow for what 2 things? |
|
Definition
1. prevents rapid restimulation of the heart muscle
2. allows for the efficient pumping of the blood and filling of hte heart |
|
|
Term
| TF the cardiac cycle is the period from the beginning of one heartbeat to the end of one heartbeat |
|
Definition
False
its the period from the beginning of one heartbeat to the beginning of another heartbeat
|
|
|
Term
| TF Diastole is the contraction period of the cardiac cycle |
|
Definition
False
It is the relaxation phase |
|
|
Term
| TF Normal systolic BP is 80mm of Hg |
|
Definition
False
Normal systolic BP = 120mm of Hg
Normal diastolic BP = 80mm of Hg |
|
|
Term
| What happens during the diastole phase? |
|
Definition
heart is relaxed and filling with blood
BP is maintained by the elasticity of major arteries
|
|
|
Term
| TF systole phase is the contraction phase of the cardiac cycle |
|
Definition
|
|
Term
| What are the two basic types of electrically responsive tissues in the heart? |
|
Definition
1. contractile fibers
2. autorhythimic tissue |
|
|
Term
| TF contractile fibers cannot initiate their own AP |
|
Definition
|
|
Term
| TF autorhythmic tissue is responsible for the initiation and conduction of AP in the heart, leading to heart contraction |
|
Definition
|
|
Term
| In autorhythmic tissue, you have a sponataneous __________________ due to a leak in ____________ |
|
Definition
depolarization
Na+ channels |
|
|
Term
| What are the depolarization rates for the different types of autorhythmic tissues? |
|
Definition
SA node = 70-80bpm
AV node = 40-60bpm
AV bundle = 15-40bpm
Purkinje fibers = 15-40bpm |
|
|
